基于零价铁的地下水化学还原修复体系中的电子转移有效性和电子竞争机制

近年来,基于零价铁的化学还原技术因其高效性逐渐被应用于受污染地下水的原位修复。但是,该技术在实际应用中仍面临一些亟待解决的问题。零价铁作为一种高活性的电子供体,除了和目标污染物反应外,还可以与地下水中其他的氧化性物质（如O₂、H⁺或NO₃^-等）反应。这些反应所造成的零价铁腐蚀,不仅会降低修复效率还会增加地下水修复成本。此外,同类或多类污染物间也存在对零价铁所释放电子的相互竞争,从而影响各自的去除效率。本文综述了基于零价铁的地下水修复体系中的电子传递过程和氧化物间的电子竞争机制,从零价铁的腐蚀和电子传递、零价铁电子选择性量化指标的提出和量化方法、地下水体中多种共存氧化物间电子竞争作用、电子效率的影响因素以及强化措施等方面进行详细介绍。最后,对该技术今后发展方向作出了展望,以期为其今后实际的地下水修复应用提供参考。     

稀土元素的电分析化学研究——Ⅳ.镱-硝酸根(或亚硝酸根)-氯化铵中的极谱催化波

多价阳离子与NO₃^-或NO₂^-作用产生的灵敏的催化电流可用于微量金属离子或NO₃^-,NO₂^-的极谱测定,但对产生催化电流的机理并不十分清楚,本文讨论了Yb³⁺-NO₃^-(或NO₂^-)-NH₄Cl体系,证明有两种不同性质的电流同时存在.当[Yb³⁺]远小于[NO₃^-]或[NO₂^-]时,以平行催化电流为主;而当[Yb³⁺]远大于[NO₃^-]或[NO₂^-]时则以NO₃^-或NO₂^-的催化电还原电流为主要成分. 本文改进了原来提出的一些实验条件,使镱在直流极谱上的测定下限达5×10^-8M.     

纳米零价铁对水中砷和硒去除的比较研究

采用纳米零价铁去除水中的砷和硒,考察了不同溶解氧、纳米零价铁投加量、接触时间以及溶液初始pH值等条件下纳米零价铁去除水中砷和硒的效果,并比较了反应前后固体的形貌、组成、溶液pH值及反应机制.结果表明,纳米零价铁可广泛用于去除水中的砷/硒污染,去除效果顺序依次为Se（IV）> As（Ⅲ）> Se（VI）> As（V）;水中溶解氧（DO）对As（Ⅲ）和Se（IV）的去除没有显著的影响,而高浓度的DO对As（V）和Se（VI）的去除产生了一定的抑制作用;增加纳米零价铁投加量可促进砷和硒的去除;溶液初始pH值对纳米零价铁去除As（Ⅲ）,As（V）和Se（VI）的影响较大,而对Se（IV）的去除几乎没有影响;反应后固体的形貌、组成及溶液pH值存在差异.纳米零价铁与砷、硒反应机理的不同造成了去除效果及反应后固液两相的差异.     

还原氧化石墨烯负载零价铁的合成及对TNT废水处理

选取比表面积大且导电性能优良的还原氧化石墨烯(rGO)作为支撑材料,负载还原性强但极易团聚的纳米零价铁(nZVI),制得还原氧化石墨烯负载零价铁(nZVI/rGO)复合材料.通过X射线衍射(XRD)、傅里叶变换红外光谱(FTIR)、扫描电子显微镜(SEM)与X射线光电子能谱(XPS)等测试手段对零价铁的负载情况、材料表面微观形貌与反应前后nZVI/rGO材料表面铁元素的含量与组成进行表征.考察了溶液初始pH值、材料投加量和理论零价铁负载量等因素对nZVI/rGO去除2,4,6-三硝基甲苯(TNT)的影响,研究了nZVI/rGO材料去除TNT的反应机理.通过正交实验可知, nZVI/rGO对含TNT废水的处理在较宽的反应条件范围内都可达到处理要求,在理论零价铁的负载量为3.0 g/g rGO,溶液初始pH为6,材料投加量为40 g/L时效果最佳,可将废水中TNT处理到检出限0.1 mg/L以下.     

应用纳米零价铁富集银的研究

大量研究表明,纳米零价铁（nanoscale Zero-Valent Iron,nZVI）对水中重金属,尤其是金、银等稀贵金属,有良好的分离富集作用.利用纳米零价铁反应器证明了nZVI可从废水中分离低浓度的银离子（Ag⁺）,并生成高含量的“银矿石”.此外,也证明了反应区氧化还原电位能够反映nZVI与Ag⁺的反应速率和分离效率.利用X射线衍射仪、X射线光电子能谱和高分辨透射电子显微镜等手段对反应产物进行表征,证实了Ag⁺可被nZVI还原为单质银,并以纳米颗粒的形式（<10 nm）沉积在nZVI表面.与其他材料（常见吸附/还原材料）相比,nZVI具有效率高,受pH影响小的优点.研究结果表明,nZVI是一种能够高效富集痕量银资源并产生高价值纳米银的材料.     

铬(Ⅵ)-邻菲咯啉-亚硝酸钠的氨性缓冲体系中极谱催化波机理的研究

本文报道了Cr(Ⅵ)-C₁₂H₈N₂-NaNO₂^-NH₃-NH₄Cl(pH9.4)体系极谱催化波机制的研究.阐明它不是氢催化波.而是Cr(Ⅲ)的多元配合物中NO₂^-被催化还原,同时溶液中的NO₂^-又参与了平行电极反应的催化反应.活性多元配合物的组成为:Cr(Ⅲ)·(C₁₂H₈N₂)·(NO₂^-)₂·(NH₃).     

2,6-二甲酚双波长分光光度法同时测定水中NO3-及NO2-的研究

水中NO₃^-和NO₂^-的一般光度法同时测定已见报导,但其操作手续均较麻烦。2,6-二甲酚光度法单独测定NO₂^-或NO₂^-虽已有报导,可是它们相互干扰。我们采用双波长光度法,测定NO₃^-和NO₂^-在H₂SO₄介质与2,6-二甲酚的反应产物,既免除了它们的相互干扰,又达到同时测定的目的。     

Au/Fe3O4/壳聚糖纳米复合物NO2-传感电极

以壳聚糖为保护膜、玻碳为基底,用纳米Au和Fe₃O₄磁性纳米粒子构建了新型亚硝酸盐（NO₂^-）传感电极. 实验表明,该传感电极对NO₂^-有良好的电催化氧化活性,NO₂^-浓度(5.0×10^-6 ~ 2.0×10^-3 mol·L^-1)与氧化峰电流之间呈良好的线性关系（R = 0.9996）,检出限7.1×10^-7 mol·L^-1, 其灵敏度高、选择性好、重现性好.     

基于零价铝的氧化/还原技术在水处理中的应用

利用零价金属(ZVMs)处理环境污染物一直是环境治理领域的研究热点,其中以零价铁(ZVI)的研究最为广泛。近年来,零价铝(ZVAl)因其具有比ZVI更低的氧化还原电位(E⁰(Al³⁺/Al⁰)=-1.662 V, E⁰(Fe²⁺/Fe⁰)=-0.44 V)及其两性性质(反应pH可以拓展到碱性)而开始受到关注。目前环境领域关于ZVAl的研究主要集中于两类:以零价铝/氧/酸(ZVAl/O₂/H⁺)体系为核心的氧化体系和以零价铝/无氧(ZVAl/anaerobic)体系为核心的还原体系,其中前者因原位产生过氧化氢构成类Fenton氧化体系而备受关注。研究已发现,基于ZVAl的氧化/还原技术可有效去除酚类、偶氮染料、有机卤化物等有机污染物和Cr(Ⅵ)、As(Ⅲ)等无机污染物,且超声、微波、外加多金属氧酸盐(POM)、Fe²⁺等辅助手段对该技术有一定辅助效果。本文分别就基于ZVAl的氧化体系和还原体系,对其反应机理及去除水中污染物的国内外最新研究进展进行了综述和展望,以期促进ZVAl水处理技术的发展。铝作为地壳中最丰富的金属元素,ZVAl不存在像ZVI高pH值时产生沉淀的问题,相信随着ZVAl表面氧化膜这一制约因素的逐渐解决,其在水处理领域将有更广泛的应用。     

铁基双金属材料还原降解三溴甲烷的研究

本文制备了Cu/Fe和Pd/Fe两种铁基双金属材料,考察它们对溴仿(CHBr_3)的还原去除效果。结果表明,溴仿的还原去除效果都随双金属材料投加量的增加而增加;溶液中H~+浓度越高,越有利于还原反应的进行;溶解氧的存在会对还原去除反应产生抑制作用。双金属材料与溴仿的还原去除反应包括直接还原和间接还原两种途径。Pd和Cu通过与零价铁组成原电池结构加快了零价铁在水中的腐蚀速度,从而增强了零价铁对溴仿的直接还原去除效果。Pd与Cu相比,具有更高的氢过电位,氢气更容易在Pd的表面生成,而氢气也可以作为还原剂,取代溴仿分子中的溴原子,完成还原脱卤。因此,Pd/Fe双金属材料对溴仿的还原去除效果要好于Cu/Fe双金属材料。     

Effect of zero-valent iron on biological denitrification in the autotrophic denitrification system

This study investigated nitrate removal using biological denitrification by the iron-reducing bacteria strain CC76 combined with zero-valent iron (ZVI) in simulated groundwater under anaerobic conditions. The mechanism of nitrate reduction as well as the process of iron cycling by strain CC76 and ZVI were studied. During growth experiments, the strain CC76 showed the ability to utilize Fe²⁺ (electron donor) produced from the stimulated corrosion of ZVI for the nitrate removal. ZVI exerted inhibitive effects on the growth of strain CC76 in the early stage. However, the strain CC76 was able to tolerate the presence of ZVI in the long term. Moreover, three factors (temperature, initial pH, and ZVI concentration) were selected as effective factors and were optimized using a central composite design of response surface methodology. Based on the statistical analysis, a temperature of 30.44 °C, initial pH of 6.11, and ZVI concentration of 5.89 g/L were determined to be the optimum values. The effect of Fe²⁺/ZVI ratio was also explored and compared with ZVI alone, a certain amount of a mixture of Fe²⁺ and ZVI showed a higher nitrate removal ability. Moreover, scanning electron microscopy and X-ray diffraction analyses showed the corrosion of ZVI occurred after reaction in the autotrophic denitrification system.     

Nitrobenzene degradation by micro-sized iron and electron efficiency evaluation

The effect of pH, temperature, zero-valent iron (ZVI) dosage and reaction duration on nitrobenzene (NB) degradation by micro-sized ZVI was investigated in batch experiments and the electron efficiency (EE) was evaluated at constant pH. The experimental results showed that the reaction rate constant attained 0.616 min^?1, which was far higher than reported in previous studies. The decrease in pH and increase in temperature of the reaction bath promoted the reaction kinetics. ZVI dosage and reaction duration were two key factors affecting NB reduction and EE. A lower ZVI dosage and a slightly longer reaction duration could afford an optimised EE and optimum NB removal. A prolonged reaction or too high a ZVI dosage resulted in increased ZVI waste.     

羟基氧化铁/膨胀石墨复合材料的制备及除砷机制

以膨胀石墨为载体材料,采用改进后的综合法制备的羟基氧化铁（FeOOH）为改性材料,在酸性及超声波振荡的条件下对膨胀石墨进行表面接枝,制得羟基氧化铁/膨胀石墨复合材料,并对材料进行扫描电子显微镜（SEM）、X射线衍射（XRD）、傅里叶变换红外光谱（FTIR）和X射线光电子能谱（XPS）表征,随后测试了其除砷性能,并探讨了反应机理.实验结果表明,复合材料中羟基氧化铁通过氢键与化学键均匀负载在了膨胀石墨表面,为亚微米级球状;使用0.5 g复合材料处理50 mL浓度为0.5 mg/L的模拟含砷废水,90 min后去除率可达到99%,且经过处理可以使废水中的砷浓度达到饮用标准;载铁量越高,材料的除砷性能越好,当载铁量达到55%时,使用0.5 g复合材料处理50 mL浓度为2.0 mg/L的模拟含砷废水,1 h后去除率达到72.6%,是普通膨胀石墨的3倍;该除砷过程由解离的羟基氧化铁与砷在复合材料附近完成,符合二级动力学方程和Temkin等温吸附模型.     

Mn/Ce掺杂改性半焦对模拟煤气中单质汞的脱除性能研究

制备了Mn改性半焦(Mn-SC)及Mn/Ce掺杂改性半焦(Mn/Ce-SC)吸附剂,在小型固定床吸附反应器上考查了改性半焦对模拟煤气中单质汞的吸附特性,并利用BET比表面积测试、X射线衍射、X射线光电子能谱等手段对半焦吸附剂进行了表征。结果表明,Mn改性后半焦的比表面积、总孔容和平均孔径都有所增加,而Mn/Ce掺杂改性半焦的孔隙结构发达程度有一定程度的降低;Mn_xO_y及Ce_xO_y均以高分散的无定形态存在于半焦表面;Mn/Ce-SC的脱汞效率明显高于Mn-SC和SC,其脱汞性能随吸附温度的升高会有所下降,但总体保持较高的水平。当煤气中有1%的O_2存在时,Mn/Ce-SC表面会发生Ce~(4+)/Ce~(3+)间的氧化还原反应循环,从而将煤气中的气相氧转化为高氧化活性的晶格氧,使Mn/Ce-SC的脱汞效率一直稳定在95%以上,Hg0在Mn/Ce-SC半焦表面的吸附符合Mars-Maessen机制。     

Effect of selected ligands on the U(VI) immobilization by zerovalent iron

Summary Theeffect ofCl^-, CO₃^2-, EDTA, NO₂^-, NO₃^-, PO₄^3-, SO₄^2-, and humic substances (HS)on the U(VI)co-precipitation from aqueous solutions by zerovalent iron (ZVI) was investigated in the neutral pH range.Batch experiments without shaking were conducted for 14 days mostly with five different ZVI materials (15 g/l), selected ligands (10mM) and an U(VI) solution (20 mg/l, 0.084mM). Apart from Cl^-, all tested ligands induced a decrease ofU(VI)coprecipitation. This decrease is attributed to the surface adsorption and complexation of the ligands at the reactive sites on the surface of ZVI and their corrosion products. The decrease ofU(VI)removal was not uniform with the five ZVI materials. Generally, groundwater with elevated EDTA concentration could not be remediated with the ZVI barrier technology. The response of the system on the pre-treating by two ZVI materials in 250mM HCl indicated that in situ generated corrosion products favor an irreversible U(VI) uptake. Thus for the long term performance of ZVI barrier, the iron dissolution should continue in such a way that fresh iron oxide be always available for U(VI) coprecipitation.     

The capacity and mechanisms of various oxidants on regulating the redox function of ZVI

It is well known that zero-valent iron(ZVI) could catalyze the oxidation of various oxidants to realize the rapid oxidation removal of pollutants. However, in this study, we found that the addition of different oxidants could regulate the redox function of ZVI system. In three different co-treatment systems, the effects of different oxidizers(peroxymonosulfate(PMS), persulfate(PDS), hydrogen peroxide(H_2O_2))dosages on the ratios of oxidative degradation rate and reductive degradation rate of p-nitrophenol(PNP)were studied. The effect of the H~+ released from oxidizers and the generated reactive oxygen species(ROS) in ZVI/PMS, ZVI/PDS, ZVI/H_2O_2 systems were detailed discussed. Especially, the contribution of generated ROS for reductive degradation of PNP was quantified in the ZVI/H_2O_2 system. Based on the results of TOC removal, UV–vis absorption spectra, and intermediates concentration curves, it was found that the degradation of PNP changed from reduction to oxidation with the increase of oxidant proportion.When the molar ratio of ZVI to oxidizer equal to 100, PNP was mainly degraded by reduction accompanied by slight oxidation. Combined with the results of SEM-EDS and XPS, it was confirmed that the enhanced degradation of PNP under the addition of oxidant was mainly related to the generated ROS,the additional H~+, and the corrosion products of ZVI.     

复合改性膨胀石墨的制备及对酸性艳蓝染料的吸附

采用相同反离子协同磷酸活化法, 以十六烷基三甲基溴化铵(CTAB)-KBr为复合改性剂, 制备了一种高效吸附剂复合改性膨胀石墨(M-EG), 通过扫描电子显微镜(SEM)、 傅里叶变换红外光谱(FTIR)及X射线电子能谱(XPS)等对膨胀石墨(EG)和改性膨胀石墨(M-EG)的形貌结构、 组成和价态进行了表征, 考察了EG和M-EG对酸性艳蓝染料废水的处理效果. 结果表明, 复合改性后的膨胀石墨孔隙度变大, 表面含氮和溴官能团增多. 吸附剂M-EG对酸性艳蓝染料废水具有较高的吸附性能, 在pH=1.0及30 ℃条件下对染料的去除率达到94.13%; EG符合二级动力学吸附模型, 用Langmuir等温线方程拟合效果较好; M-EG符合二级吸附动力学方程, 同时符合Langmuir和Freundlich等温吸附模型; M-EG的吸附动力学常数大于EG吸附动力学常数.     

Amplification effects of magnetic field on hydroxylamine-promoted ZVI/H2O2 near-neutral Fenton like system

This study has demonstrated an interesting amplification effect of magnetic field（MF） on the hydroxylamine（HA）-promoted zero valent iron（ZVI）/H2 O₂ Fenton-like system.Sulfamethoxazole（SMX） could be efficiently degraded at near neutral pH.Conditional parameters affecting the SMX degradation in the ZVI/H₂ O₂/HA/MF system,e.g.,pH and the dosages of ZVI,HA and H₂ O₂,were investigated.Unlike the acid-favorable ZVI/H₂ O₂ and ...     

Synthesis,characterization of palygorskite supported zero-valent iron and its application for methylene blue adsorption

In this work, natural palygorskite impregnated with zero-valent iron (ZVI) was prepared and characterized. The combination of ZVI particles on surface of fibrous palygorskite can help to overcome the disadvantage of ultra-fine powders which may have strong tendency to agglomerate into larger particles, resulting in an adverse effect on both effective surface area and catalyst performance. There is a significant increase of methylene blue (MB) decolourized efficiency on acid treated palygorskite with ZVI grafted, within 5 min, the concentration of MB in the solution was decreased from 94 mg/L to around 20 mg/L and the equilibration was reached at about 30–60 min with only around 10 mg/L MB remained in solution. Changes in the surface and structure of prepared materials were characterized using X-ray diffraction (XRD), infrared (IR) spectroscopy, surface analysing and scanning electron microscopy (SEM) with element analysis and mapping. Comparing with zero-valent iron and palygorskite, the presence of zero-valent iron reactive species on the palygorskite surface strongly increases the decolourization capacity for methylene blue, and it is significant for providing novel modified clay catalyst materials for the removal of organic contaminants from waste water.